Antenna box module and antenna box

ABSTRACT

An antenna module includes an antenna box and a first connection wire. The antenna box can include a first antenna, a second antenna, a first connection terminal, a second connection terminal and a housing. The first and second antennas are located in the housing and the housing has a first opening collectively exposing a portion of the first connection terminal and a portion of the second connection terminal. Each of the first and second antennas is adapted to receive or transmit wireless signals according to one of a plurality of wireless communication standards and the first and second antennas are electrically connected to the first and second connection terminals, respectively. The wireless communication standards can be different from each other.

PRIORITY

Any and all applications for which a foreign or domestic priority claimis identified in the Application Data Sheet as filed with the presentapplication are hereby incorporated by reference under 37 CFR 1.57.

This application is a continuation of, and claims the benefit ofpriority to, U.S. patent application Ser. No. 16/939,752 filed Jul. 27,2020, of the same title, which in turn claims the benefit of priorityunder 35 U. S.C. § 119(a) to Taiwanese Patent Application No. 108126567filed on Jul. 26, 2019, and Taiwanese Patent Application No. 108137885filed on Oct. 21, 2019, each of which is hereby incorporated byreference in its entirety.

BACKGROUND Field of the Disclosure

Embodiments described herein relate to antenna devices, and inparticular to an antenna module and an antenna box.

Description of the Related Art

An antenna box, or an antenna housing, can include at least one antennaand at least one connection wire connecting the antenna housed withinthe antenna box to a connection terminal.

SUMMARY

Embodiments described herein provide an antenna module and an antennabox comprising a plurality of antennas, particularly different antennas,supporting different wireless communication standards.

In a first broad aspect, an antenna box module is provided, comprisingan antenna box and a first connection wire. The antenna box comprises afirst antenna, a second antenna, a first connection terminal, a secondconnection terminal and a housing. The first and second antennas arelocated in the housing, and the housing has a first opening exposingcollectively a portion of the first connection terminal and a portion ofthe second connection terminal. Each of the first and second antennas isadapted to receive or transmit wireless signals according to one of aplurality of wireless communication standards. The first and secondantennas are electrically connected to the first and second connectionterminals, respectively and the wireless communication standards aredifferent from each other. One end of the first connection wire isadapted to being connected to the first connection terminal such thatthe first antenna is adapted to be electrically connected to the firstconnection wire by means of the connection of the first connectionterminal with the first connection wire.

The end of the first connection wire can be adapted to be connected tothe first connection terminal by means of insertion or thread-locking orfitting fastening.

The first opening can be located on a side surface, a top surface or abottom surface of the housing.

The antenna box can further include a plurality of other antennas and aplurality of other connection terminals, and the other antennas areelectrically connected to the other connection terminals, respectively.The first opening further exposes collectively a portion of each of theother connection terminals, and the first, second and other connectionterminals are arranged in parallel in a row or multiple rows. Thehousing further has a second opening exposing collectively a portion ofeach of the other connection terminals, and the first and second openingare located on different surfaces of the housing.

The antenna box can further include a circuit board. The first andsecond antennas and the first and second connection terminals aredisposed on the circuit board. The first and second connection terminalsare disposed on the circuit board by means of soldering or insertion.

The antenna box can further include a first connector. The first andsecond connection terminals are disposed at the first connector. Theantenna box further comprises a connection wire module comprising thefirst connection wire, a second connection wire and a second connector.The end of the first connection wire and one end of the secondconnection wire are connected to the second connector. The secondconnector is adapted to be connected to the first connector such thatsimultaneously, the first antenna is adapted to be electricallyconnected to the first connection wire by means of the connection of thefirst connector with the second connector and the second antenna isadapted to be electrically connected to the second connection wire bymeans of the connection of the first connector with the secondconnector. In addition, the second connector is adapted to be connectedto the first connector by means of magnetic force or screw-locking.Further, the first antenna is electrically connected to the firstconnection wire in an one-to-one fashion, and the second antenna iselectrically connected to the second connection wire in an one-to-onefashion. Further, the first connector comprises a first common base. Thefirst common base is partially disposed in the first opening and has aplurality of through holes. The first and second connection terminalsare disposed at and thus occupy some or all of the through holes.Further, the first connector is provided for all the antennas in theantenna box. Further, the second connector comprises a second commonbase. The end of each of the first and second connection wires isdisposed at the second common base. Further, the second common base hasa first hole and a second hole. An orientation of the first hole and anorientation of the second hole are not arranged in parallel. Both of aportion of the first connection wire and a portion of the secondconnection wire are at least extended into a space between the firsthole and the second hole.

In another broad aspect, an antenna box is provided, comprising a firstantenna and a second antenna, a first antenna and a second antenna, anda housing. Each of the first and second antennas is adapted to receiveor transmit wireless signals according to one of a plurality of wirelesscommunication standards. The wireless communication standards aredifferent from each other. The first antenna is electrically connectedto the first connection terminal and the second antenna is electricallyconnected to the second connection terminal. The first and secondantennas are located in the housing. The housing has a first openingexposing collectively a portion of the first connection terminal and aportion of the second connection terminal.

The first opening can be located on a side surface, a top surface or abottom surface of the housing.

The antenna box can further include a plurality of other antennas and aplurality of other connection terminals. The other antennas areelectrically connected to the other connection terminals, respectively.In addition, the first opening further exposes collectively a portion ofeach of the other connection terminals. The first, second and otherconnection terminals are arranged in parallel in a row or multiple rows.Further, the housing further has a second opening exposing collectivelya portion of each of the other connection terminals. The first andsecond openings are located on different surfaces of the housing.

The antenna box can further include a circuit board. The first andsecond antennas and the first and second connection terminals aredisposed on the circuit board. The first and second connection terminalsare disposed on the circuit board by means of soldering or insertion.

The first antenna can be electrically connected to the first connectionwire in an one-to-one fashion, and the second antenna is electricallyconnected to the second connection wire in an one-to-one fashion.

The antenna box can further include a connector. The connector comprisesa common base. The common base is partially disposed in the firstopening and has a plurality of through holes. The first and secondconnection terminals are disposed at and thus occupy some or all of thethrough holes.

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing and other features of the present disclosure will becomemore fully apparent from the following description and appended claims,taken in conjunction with the accompanying drawings. Understanding thatthese drawings depict only several embodiments in accordance with thedisclosure and are not to be considered limiting of its scope, thedisclosure will be described with additional specificity and detailthrough use of the accompanying drawings. In the following detaileddescription, reference is made to the accompanying drawings, which forma part hereof. In the drawings, similar symbols typically identifysimilar components, unless context dictates otherwise.

FIG. 1 is a perspective view of an embodiment of an antenna box moduleincluding a single antenna.

FIG. 2 is a perspective view schematically illustrating an embodiment ofan antenna box module, illustrating a connection wire module connectedto an antenna box.

FIG. 3 is a detail perspective view schematically illustrating a sectionof the antenna box module of FIG. 2 , in which the antenna box and theconnection wire module are separated.

FIG. 4 is a top plan view schematically illustrating the antenna box ofFIG. 2 .

FIG. 5A is a perspective view schematically illustrating a connectorsuch as the connector of FIG. 3 .

FIG. 5B is a perspective view schematically illustrating the connectorof FIG. 5A.

FIG. 6 is a perspective view schematically illustrating a connectionwire module such as the connection wire of FIG. 3 from a differentangle.

FIG. 7 is a perspective view schematically illustrating anotherembodiment of an antenna box module, in which an antenna box and aconnection wire module are separated.

FIG. 8 is a perspective view schematically illustrating anotherembodiment of an antenna box module.

FIG. 9 is a detail perspective view schematically illustrating a sectionof the antenna box module of FIG. 8 .

FIG. 10 is a perspective view schematically illustrating anotherembodiment of an antenna box module.

FIG. 11 is a perspective view schematically illustrating anotherembodiment of an antenna box module.

While the above-identified drawings set forth presently disclosedembodiments, other embodiments are also contemplated, as noted in thediscussion. This disclosure presents illustrative embodiments by way ofrepresentation and not limitation. Numerous other modifications andembodiments can be devised by those skilled in the art which fall withinthe scope and spirit of the principles of the presently disclosedembodiments.

DETAILED DESCRIPTION

FIG. 1 is a perspective view of an embodiment of an antenna box moduleincluding a single antenna. The antenna box module 100 in FIG. 1 is usedas an example for illustrating a connection mode for antenna signals.The antenna box module 100 includes an antenna box 110 and a singleconnection wire 120. The antenna box 110 includes a single antenna 112adapted to receive and transmit multiple wireless signals according toWi-Fi wireless communication standard. Further, the single antenna 112is electrically connected to the single connection wire 120, and thesignal connection wire 120 may be connected to a network card (notshown) of another external device.

However, the antenna box module 100 includes only the single connectionwire 120, and the antenna box 110 and the single connection wire 120 arein a fixed connection. In addition, the antenna box module 100 includesonly the single antenna 112 and thus supports only one wirelesscommunication standard.

FIG. 2 is a perspective view schematically illustrating an embodiment ofantenna box module, illustrating a connection wire module connected toan antenna box. FIG. 3 is a detail perspective view schematicallyillustrating a section of the antenna box module of FIG. 2 , in whichthe antenna box and the connection wire module are separated. FIG. 4 isa top plan view schematically illustrating the antenna box of FIG. 2 .

Like the antenna box 110 of FIG. 1 , the antenna box 210 of FIG. 2 has ahousing 218 with a generally planar, rectangular top surface 218 c and asimilarly dimensioned bottom surface 218 d. In other embodiments,however, the top and bottom surfaces need not be planar, but may includesome curvature. The antenna box 210 also includes a side surface 218 b.In the illustrated embodiment, because the corners of the top surface218 c are rounded, the side surface 218 b forms a part of a curved bandsurface extending around the edge of the antenna box 210, with the flatsections forming side surfaces such as longer side surface 218 b andshorter side surface 218 e. The antenna box 210 may include bevels or asimilar curved transition between the top surface 218 c and the sidesurfaces such as longer side surface 218 b and shorter side surface 218e, and may include similar bevels or curved transitions on the undersideof the antenna box 210.

Referring to FIG. 2 to FIG. 4 , an antenna box module 200 includes anantenna box 210 and a connection wire module 220 configured to beconnected to the antenna box 210. The antenna box 210 includes multipleantennas 212 and a first connector 214 dimensioned to allow theconnection wire module 220 to be connected to the first connector 214.Each of the antennas 212 is adapted to receive and transmit wirelesssignals according to one of a plurality of wireless communicationstandards. In some embodiments, these antennas 212 are of differenttypes. For example, based on these different wireless communicationstandards, these antennas 212 may have respectively correspondingstructures. These wireless communication standards include, for example,the Wi-Fi wireless communication standard, Bluetooth wirelesscommunication standard, GPS wireless communication standard, 2G wirelesscommunication standard, 3G wireless communication standard, 4G wirelesscommunication standard, 5G wireless communication standard and WiMAXwireless communication standard, and so on

Further, the connection wire module 220 includes a second connector 224and multiple connection wires 222. One end of each of the connectionwires 222 is connected to the second connector 224. In this embodiment,the end of each of the connection wires 222 connected to the secondconnector 224 is disposed at a common base 224 a of the second connector224. The second connector 224 is adapted to be connected to the firstconnector 214 such that one of these antennas 212 is adapted to beelectrically connected to one of these connection wires 222 via theconnection between the first connector 214 with the second connector224, and another of these antennas 212 is adapted to be electricallyconnected to another of these connection wires 222 via the connectionbetween the first connector 214 with the second connector 224.

In this embodiment, these antennas 212 are all antennas in the antennabox 210. In other words, all the antennas 212 in the antenna box 210 maybe coupled to an external device commonly through the first connector214, such that other additionally provided connectors are then notneeded. Further, these antennas 212 and these connection wires 222 maybe connected in one-to-one fashion, in which the number of theseantennas 212 may be equal to the number of these connection wires 222,and each of the connection wires 222 may be electrically connected toone unique antenna 212 of these antennas 212. This description of anexemplary connection arrangement is non-limiting, and other connectionarrangements may also be made

FIG. 5A is a perspective view schematically illustrating a connectorsuch as the connector of FIG. 3 . FIG. 5B is a perspective viewschematically illustrating the connector of FIG. 5A. Referring to FIG. 3to FIG. 5B, the antenna box 210 further includes at least one circuitboard 216 and a housing 218. These antennas 212 and the circuit board216 are located in the housing 218. The housing 218 includes an opening218 a, and a portion of the first connector 214 is exposed outside thehousing 218 through the opening 218 a. In this embodiment, the materialforming the housing 218 of the antenna box 210 includes a heat-resistantmaterial, and is, for example, a plastic material, and may be a mixtureof PA resin and ABS resin.

These antennas 212 are disposed on the circuit board 216 andelectrically connected to the circuit board 216. The first connector 214is disposed on or otherwise connected to the circuit board 216, andincludes multiple connection terminals 214 a and a common base 214 b. Inthe illustrated embodiment, only five connection terminals 214 a areillustratively depicted in FIG. 5A. The opening 218 a of the housing 218may accommodate the common base. However, in other embodiments, thecommon base 214 b may be omitted. In such an embodiment, the connectionterminals 214 a may be directly electrically connected to the circuitboard 216 by means of welding or another suitable connection.

The common base 214 b is disposed on the circuit board 216 and hasmultiple through holes 214 c. The number of the through hole 214 c isnot limited. In some embodiments, more than through holes may beprovided, and in other embodiments 13 or 17 through holes may beprovided. In other embodiments, other numbers of through holes within,below, or above this range may be provided. In some embodiments, thenumber of the through holes 214 c may be greater than or equal to thenumber of connection terminals 214 a in the connector 214.

In some embodiments, as shown in the drawings, the through holes 214 care closely adjacent to one another and are arranged next to one anotherin the same direction, so as to save occupied space and to not increasethe thickness of the housing 218. However, in other embodiments, theseconnection terminals 214 a may be arranged in parallel in multiple rows,such as two or three rows, or may be arranged as a circle or in anyother desired arrangement. Hence, correspondingly, these through holes214 c, as described in detail elsewhere herein, designed foraccommodating these connection terminals 214 a may be arrangedaccordingly in multiple rows, as a circle, or in any other desiredpattern.

The common base 214 b can be integrally formed. In some embodiments, thecommon base 214 b may be formed of a metal or alloy material, such aszinc alloy. Zinc alloy is an example of a material with good castingperformance, which can be die-casted as precision parts having complexshapes and thin walls. The use of such a material can be beneficial forthe formation of a large number of through holes 214 c in closearrangement. However, it should be noted that the disclosed technologyis not limited to the above examples.

It should be noted that, depending on the number of these antennas 212in practice, the multiple connection terminals 214 a of the firstconnector 214 may be disposed in all or a portion of the through holes214 c so as to be electrically connected to the circuit board 216, and aportion of each connection terminal 214 a may be exposed outside thehousing 218 through the opening 218 a of the housing 218 so as to beconnected to an external device. In other words, the number of thethrough holes 214 c may be more than the number of the connectionterminals 214 a. Thus, these through holes 214 a of the common base 214b are adapted to multiple scenarios without needing to be adjusted, andare not limited by the number of these antennas 212 in practice. In someexemplary embodiments, the number of these through holes 214 c may bemore than that of the antennas 212.

One of these antennas 212 is electrically connected to one of theseconnection terminals 214 a through the circuit board 216, and another ofthese antennas 212 is electrically connected to another of theseconnection terminals 214 a through the circuit board 216. In thisembodiment, these antennas 212 and these connection terminals 214 a maybe in one-to-one fashion in which the number of these antennas 212 maybe equal to the number of these connection terminals 214 a, and each ofthe connection terminals 214 a is electrically connected to a uniqueantenna 212 of these antennas 212.

In other embodiment with the common base 214 b, when these through holes214 c are arranged in parallel in multiple rows, the through holes 214 cof the first row are distanced closer to the circuit board 216, and sothe connection terminals 214 a in the through holes 214 c of the firstrow may be electrically connected to the circuit board 216 by means ofwelding or another suitable connection. The connection terminals 214 ain the through holes 214 c of the second row or another row that islocated farther from the circuit board 216 in a vertical direction maybe electrically connected to the circuit board 216 by additionalflexible wires (not shown in the drawings).

FIG. 6 is a perspective view schematically illustrating a connectionwire module such as the connection wire of FIG. 3 from a differentangle. Referring to FIG. 2 to FIG. 6 , when the second connector 224 ofthe connection wire module 220 is connected to the first connector 214of the antenna box 210 as shown in FIG. 2 , one end of each of theconnection wires 222 disposed at the common base 224 a of the secondconnector 224 is inserted into one corresponding connection terminal 214a of these connection terminals 214 a of the first connector 214. Inthis embodiment, the first connector 214 includes a pair of magnets 214d disposed at the common base 214 b, the second connector 224 includesanother pair of magnets 224 b disposed at the common base 224 a, and thefirst connector 214 and the second connector 224 are adapted to besecured relative to one another by means of the magnetic forceattraction between the magnets 214 d and the magnets 224 b. The otherends of each of the connection wires 222 of the connection wire module220 away from the antenna box 210 may be selectively externallyconnected to another external device (not shown), for example, a networkcard of another host or a router.

In this embodiment, the housing 218 has a single opening 218 a locatedon a side surface 218 b and the antenna box 210 includes a single firstconnector 214. In other embodiments, the single opening 218 a may alsobe located on another surface of the antenna box 210 such as a topsurface 218 c or a bottom surface 218 d of the housing 218. When thefirst connector 214 is located on the top surface 218 c or the bottomsurface 218 d of the housing 218, the connection terminals 214 a locatedin the through holes 214 c of the first connector 214 may beelectrically connected to the circuit boards 216 by means of welding orinsertion.

However, in other embodiments, the housing 218 may have another openingand the antenna box 210 may include another connector. The other openingmay be located on the same surface or a different surface of the housing218 such as the first the top surface 218 c, the bottom surface 218 d oranother side surface 218 e of the housing 218. The other opening mayexpose a portion of the other connector. The positions, shapes and sizesof different openings may be the same or different, and the common basemay be individually selectively adopted (or omitted). When the otherconnector is located on the top surface 218 c or the bottom surface 218d of the housing 218, the connection terminals located in the throughholes of the other connector may be electrically connected to thecircuit board 216 by means of welding or insertion.

FIG. 7 is a perspective view schematically illustrating anotherembodiment of an antenna box module, in which an antenna box and aconnection wire module are separated. Referring to FIG. 7 and FIG. 2 ,an antenna box module 300 of the second embodiment differs from theantenna box module 200 of the first embodiment in that, a firstconnector 314 of the antenna box 310 of the second embodiment and asecond connector 324 of a connection wire module 320 are adapted to bemechanically connected by means of screw fixing. For example, multiplescrews 330 are adapted to pass through the second connector 324 so as tobe fixed to the first connector 314.

FIG. 8 is a perspective view schematically illustrating anotherembodiment of an antenna box module. FIG. 9 is a detail perspective viewschematically illustrating a section of the antenna box module of FIG. 8. A cover of one connection terminal 414 a in FIG. 9 is omitted so as toshow the structure therein. Referring to FIG. 8 and FIG. 9 , the commonbase 214 b of the first connector 214 of the first embodiment is omittedfrom an antenna box 410 of the third embodiment. In the thirdembodiment, one end of each connection wire 422 disposed at the secondconnector 424 may be connected to the corresponding connection terminal414 a disposed on the circuit board 416 by means of insertion. Inanother embodiment, the second connector 424 may also be omitted, andthe antenna box module 400 may include a single connection wire 422,which may be connected to the corresponding connection terminal 414 a inanu suitable fashion, such as by means of insertion or thread-locking orfitting fastening.

FIG. 10 is a perspective view schematically illustrating anotherembodiment of an antenna box module. Referring to FIG. 10 , the outershape of a connection end of a common base 514 b of a first connector514 of an antenna box module 500 of the fourth embodiment is notleft-right symmetrical, and the outer shape of a connection end of acommon base 524 a of a second connector 524 is not left-rightsymmetrical. However, the outer shape of the connection end of thecommon base 514 b of the first connector 514 and the outer shape of theconnection end of the common base 524 a of the second connector 524correspond to each other. Thus, the connection means of the secondconnector 524 and the first connector 514 provides a foolproof mechanismof ensuring that the first and second connectors 514 and 512 areconnected in a desired orientation relative to one another, as theasymmetrical shapes will not allow connection in a differentorientation.

Further, the common base 524 a of the second connector 524 has a firsthole H1 and a second hole H2. The orientation of the first hole H1 andthe orientation of the second hole H2 are not arranged in parallel (forexample, perpendicular to each other), and a portion of each connectionwire 522 is at least extended into a space between the first hole H1 andthe second hole H2. As can be seen in FIG. 10 , this provides an angledconnection such as a right-angle connection between the connection wiresand the first connector 514. The connection wires 522 extend from asurface of the second connector 524 which is not parallel to the surfaceof the second connector 524 configured to abut the first connector.

FIG. 11 is a perspective view schematically illustrating anotherembodiment of an antenna box module. Referring to FIG. 11 , an antennabox 610 of the fifth embodiment includes a bracket 619, which isdisposed on a bottom surface 618 d of a housing 618. The bracket 619allows a user to readily hang the antenna box 610 on a wall, ceiling, orother surface. Further, in another embodiment, the bracket 619 may bereplaced by a double-side adhesive tape so as to adhere the antenna boxto a wall by the double-side adhesive tape. It should be noted that thedisclosed technology is not limited to the above examples.

In another embodiment, these antennas 212 in FIG. 4 may be completelyreplaced by other electronic components of different functions. In otherwords, the sixth embodiment is not limited to an antenna box includingantennas, but may be an electronic device including multiple electronicelements (without an antenna function) of different functions, whereineach of the electronic elements is electrically connected to at leastone corresponding connection terminals 214 a. In other embodiments, theantenna housing may include a mix of antenna elements and non-antennaelements, each of which can be connected to an external device byconnection wires via one or more connector pairs.

On the basis of the above description, the embodiments of the disclosedtechnology provide one of the following advantages or other advantages.The antenna box module of one of the embodiments of the disclosedtechnology includes multiple antennas supporting multiple wirelesscommunication standards. Therefore, compared to other embodiments, theantenna box module has a broader applied range in practice. Further, theconnection between the connection wire module of the antenna box moduleand the antenna box of one of the embodiments of the disclosedtechnology is not a fixed connection, but is a detachable connection.Therefore, the antenna box module of one of the embodiments of thedisclosed technology is more flexible and simpler in terms ofportability and assembly. Further, in particular, connections ofmultiple antennas may be simultaneously completed through the connectionof the common base of the first connector and the common base of thesecond connector, significantly improving convenience for connectionwithout involving connections of individual antennas as in otherembodiments, and being free from limitations of the number of antennasin practice.

In the foregoing description, specific details are given to provide athorough understanding of the examples. However, it will be understoodby one of ordinary skill in the art that the examples may be practicedwithout these specific details. Certain embodiments that are describedseparately herein can be combined in a single embodiment, and thefeatures described with reference to a given embodiment also can beimplemented in multiple embodiments separately or in any suitablesubcombination. In some examples, certain structures and techniques maybe shown in greater detail than other structures or techniques tofurther explain the examples.

The previous description of the disclosed embodiments is provided toenable any person skilled in the art to make or use the presentinvention. Various modifications to these embodiments will be readilyapparent to those skilled in the art, and the generic principles definedherein may be applied to other embodiments without departing from thespirit or scope of the invention. Thus, the present invention is notintended to be limited to the embodiments shown herein but is to beaccorded the widest scope consistent with the principles and novelfeatures disclosed herein.

1. (canceled)
 2. An antenna box module, comprising: an antenna box,comprising a first antenna, a second antenna, a first connectionterminal, a second connection terminal and a housing, wherein the firstand second antennas are located in the housing, and the housing has afirst opening exposing collectively a portion of the first connectionterminal and a portion of the second connection terminal, wherein eachof the first and second antennas is adapted to receive or transmitwireless signals according to one of a plurality of wirelesscommunication standards, and the first and second antennas areelectrically connected to the first and second connection terminals,respectively, wherein the wireless communication standards are differentfrom each other; and a first connection wire, wherein one end of thefirst connection wire is adapted to be connected to the first connectionterminal such that the first antenna is adapted to be electricallyconnected to the first connection wire by means of the connection of thefirst connection terminal with the first connection wire.
 3. The antennabox module according to claim 2, wherein the end of the first connectionwire is adapted to be connected to the first connection terminal bymeans of insertion or thread-locking or fitting fastening.
 4. Theantenna box module according to claim 2, wherein the first opening islocated on a side surface, a top surface or a bottom surface of thehousing.
 5. The antenna box module according to claim 2, wherein theantenna box further comprises a plurality of other antennas and aplurality of other connection terminal, and the other antennas areelectrically connected to the other connection terminals, respectively.6. The antenna box module according to claim 5, wherein the firstopening further exposes collectively a portion of each of the otherconnection terminals, and the first, second and other connectionterminals are arranged in parallel in a row or multiple rows.
 7. Theantenna box module according to claim 5, wherein the housing further hasa second opening exposing collectively a portion of each of the otherconnection terminals, and the first and second opening are located ondifferent surfaces of the housing.
 8. The antenna box module accordingto claim 2, wherein the antenna box further comprises a circuit board,and the first and second antennas and the first and second connectionterminals are disposed on the circuit board, wherein the first andsecond connection terminals are disposed on the circuit board by meansof soldering or insertion.
 9. The antenna box module according to claim2, wherein the antenna box further comprises a first connector, and thefirst and second connection terminals are disposed at the firstconnector, wherein the antenna box further comprises a connection wiremodule comprising the first connection wire, a second connection wireand a second connector, and the end of the first connection wire and oneend of the second connection wire are connected to the second connector,wherein the second connector is adapted to be connected to the firstconnector such that simultaneously, the first antenna is adapted to beelectrically connected to the first connection wire by means of theconnection of the first connector with the second connector and thesecond antenna is adapted to be electrically connected to the secondconnection wire by means of the connection of the first connector withthe second connector.
 10. The antenna box module according to claim 9,wherein the second connector is adapted to be connected to the firstconnector by means of magnetic force or screw-locking.
 11. The antennabox module according to claim 9, wherein the first antenna iselectrically connected to the first connection wire in an one-to-onefashion, and the second antenna is electrically connected to the secondconnection wire in an one-to-one fashion.
 12. The antenna box moduleaccording to claim 9, wherein the first connector comprises a firstcommon base, and the first common base is partially disposed in thefirst opening and has a plurality of through holes, wherein the firstand second connection terminals are disposed at and thus occupy some orall of the through holes.
 13. The antenna box module according to claim9, wherein the first connector is provided for all the antennas in theantenna box.
 14. The antenna box module according to claim 9, whereinthe second connector comprising a second common base, and the end ofeach of the first and second connection wires is disposed at the secondcommon base.
 15. The antenna box module according to claim 14, whereinthe second common base has a first hole and a second hole, and anorientation of the first hole and an orientation of the second hole arenot arranged in parallel, wherein both of a portion of the firstconnection wire and a portion of the second connection wire are at leastextended into a space between the first hole and the second hole.
 16. Anantenna box, comprising: a first antenna and a second antenna, whereineach of the first and second antennas is adapted to receive or transmitwireless signals according to one of a plurality of wirelesscommunication standards, wherein the wireless communication standardsare different from each other; and a first connection terminal and asecond connection terminal, wherein the first antenna is electricallyconnected to the first connection terminal and the second antenna iselectrically connected to the second connection terminal; and a housing,wherein the first and second antennas are located in the housing, thehousing has a first opening exposing collectively a portion of the firstconnection terminal and a portion of the second connection terminal. 17.The antenna box according to claim 16, wherein the first opening islocated on a side surface, a top surface or a bottom surface of thehousing.
 18. The antenna box according to claim 16, further comprising aplurality of other antennas and a plurality of other connectionterminals, wherein the other antennas are electrically connected to theother connection terminals, respectively.
 19. The antenna box accordingto claim 18, wherein the first opening further exposes collectively aportion of each of the other connection terminals and the first, secondand other connection terminals are arranged in parallel in a row ormultiple rows.
 20. The antenna box according to claim 18, wherein thehousing further has a second opening exposing collectively a portion ofeach of the other connection terminals, and the first and second openingare located on different surfaces of the housing.
 21. The antenna boxaccording to claim 16, further comprising a circuit board, wherein thefirst and second antennas and the first and second connection terminalsare disposed on the circuit board, and the first and second connectionterminals are disposed on the circuit board by means of soldering orinsertion.
 22. The antenna box according to claim 16, wherein the firstantenna is electrically connected to the first connection wire in anone-to-one fashion, and the second antenna is electrically connected tothe second connection wire in an one-to-one fashion.
 23. The antenna boxaccording to claim 16, further comprising a connector, wherein theconnector comprising a common base, and the common base is partiallydisposed in the first opening and has a plurality of through holes,wherein the first and second connection terminals are disposed at andthus occupy some or all of the through holes.